Issue 8, 2021

Outside the box: quantifying interactions of anions with the exterior surface of a cationic coordination cage

Abstract

We describe a study of the binding of anions to the surface of an octanuclear coordination cage HW, which carries a 16+ charge, in aqueous solution. Anionic aromatic fluorophores such as fluorescein (and derivatives) and hydroxypyrene tris-sulfonate (HPTS) bind strongly to an extent depending on their charge and hydrophobicity. Job plots indicated binding of up to six such fluorescent anions to HW, implying that one anion can bind to each face of the cubic cage, as previously demonstrated crystallographically with small anions such as halides. The quenching of these fluorophores on association with the cage provides the basis of a fluorescence displacement assay to investigate binding of other anions: addition of analyte (organic or inorganic) anions in titration experiments to an HW/fluorescein combination results in displacement and restoration of the fluorescence from the bound fluorescein, allowing calculation of 1 : 1 binding constants for the HW/anion combinations. Relative binding affinities of simple anions for the cage surface can be approximately rationalised on the basis of ease of desolvation (e.g. F < Cl < Br), electrostatic factors given the 16+ charge on the cage (monoanions < dianions), and extent of hydrophobic surface. The interaction of a di-anionic pH indicator (bromocresol purple) with HW results in a pKa shift, with the surface-bound di-anionic form stabilised by approximately 1 pKa unit compared to the non-bound neutral form due to the charge on the cage.

Graphical abstract: Outside the box: quantifying interactions of anions with the exterior surface of a cationic coordination cage

Article information

Article type
Paper
Submitted
10 Dec 2020
Accepted
02 Feb 2021
First published
03 Feb 2021
This article is Open Access
Creative Commons BY license

Dalton Trans., 2021,50, 2782-2791

Outside the box: quantifying interactions of anions with the exterior surface of a cationic coordination cage

M. D. Ludden and M. D. Ward, Dalton Trans., 2021, 50, 2782 DOI: 10.1039/D0DT04211K

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